CN115816752B - Lightweight auto parts forming device - Google Patents

Abstract

The invention belongs to the technical field of part forming, and particularly relates to a light-weight automobile part forming device which comprises a forming material conveying device, wherein one end of the forming material conveying device is arranged on a forming material distributing device, the other end of the forming material conveying device is arranged on a forming material feeding device, two ends of the forming material distributing device are respectively provided with a forming device, the forming material distributing device supplements forming materials for the forming devices, the forming material distributing device drives one forming device to form and simultaneously drives the other forming device to demould, the forming material feeding device conveys materials required by forming to the forming material distributing device through the forming material conveying device, the forming material distributing device pushes the formed materials into one forming device to form, and after the forming device is filled with the forming materials, the other forming device performs demoulding and discharges the formed parts.

Description

Lightweight auto parts forming device

Technical Field

The invention belongs to the technical field of part forming, and particularly relates to a lightweight automobile part forming device.

Background

With the progress of the development society of the age, the life quality of people is continuously improved, the former transportation means are gradually changed into private cars from bicycles, the structure of the private cars is also changed to a certain extent, some parts are changed into light parts from heavy parts, the strength of the parts is ensured while the weight of the parts is reduced as much as possible, and the production mode of the parts is changed into injection molding.

The injection molding mode is to add materials required for molding into a mold, then demolding is carried out, and the production mode can only produce one part in one stroke, so that the phase ratio is relatively low.

Disclosure of Invention

The invention aims to provide a lightweight automobile part forming device which aims to improve production efficiency in an injection molding process.

In order to achieve the above object, the specific technical scheme of the lightweight automobile part forming device of the invention is as follows:

the light-weight automobile part forming device comprises a forming material conveying device, wherein one end of the forming material conveying device is arranged on a forming material distributing device, the other end of the forming material conveying device is arranged on a forming material feeding device, two ends of the forming material distributing device are respectively provided with a forming device, the forming material distributing device supplements forming materials to the forming devices, the forming material distributing device drives one forming device to form and simultaneously drives the other forming device to form;

the molding material distribution device comprises a storage cylinder, a sliding plug plate, a pushing rod, a sealing plate, a friction device, a baffle, a first feeding cavity, a second feeding cavity and a sealing device, wherein the sliding plug plate slides inside the storage cylinder, one side of the sliding plug plate is the first feeding cavity, the other side of the sliding plug plate is the second feeding cavity, the pushing rod used for pushing the sliding plug plate to slide is arranged on the sliding plug plate, one end of the pushing rod is arranged on the outer side of the storage cylinder, a through groove used for pushing the pushing rod to slide is formed in the sealing storage cylinder, the sealing rod is provided with a sealing plate used for sealing the through groove, the movement of the sealing plate drives the molding device to change in two states, the die assembly of the molding device or the demolding of the molding device is arranged on the sliding plug plate, the baffle slides on the storage cylinder, the baffle is used for guaranteeing the tightness of the first feeding cavity and the second feeding cavity, the friction device drives the baffle to slide, the second feeding cavity and the sealing device are communicated with the molding material transmission device, the two sealing devices are arranged on the storage cylinder, the sealing device is used for blocking the molding material transmission device and the first feeding cavity, the sealing device is communicated with the first feeding cavity, the molding device is communicated with the second feeding cavity, and the other molding device is communicated with the first molding device.

Further, the molding material conveying device comprises an input end, a first output end and a second output end, wherein the first output end is communicated with the first feeding cavity, the second output end is communicated with the second feeding cavity, and the sealing device is used for blocking the first output end and the second output end.

Further, friction device includes friction groove, sliding block, installation cavity, friction spring and friction block, the friction groove sets up on the baffle, and the sliding block setting is on the slip cock plate, and the sliding block slides in the friction groove inside, and the sliding block is inside to be equipped with the installation cavity, and the installation cavity is inside to be equipped with two friction blocks, is equipped with friction spring between the friction block, friction spring promotes friction block and friction groove friction fit.

Further, closing means includes mount pad, rotation groove, axis of rotation, push plate, arc spring and rotation board, the inside two rotation grooves that are equipped with of mount pad, the axis of rotation setting is inside the mount pad, and the axis of rotation both ends set up in rotation inslot portion, and two push plates set up at the axis of rotation both ends, and the push plate rotates at the inside rotation groove, is equipped with arc spring between push plate and rotation groove, and the rotation plate sets up in the axis of rotation, and the rotation plate is used for keeping apart first output and second output.

Further, forming device includes spliced pole, connecting hole, sealed rotation baffle, first die body, second die body and die body branch and close controlling means, the spliced pole sets up on the storage section of thick bamboo, and the connecting hole sets up on the spliced pole, is equipped with the sealed rotation baffle that is used for controlling the connecting hole to open and shut on the spliced pole, and sealed rotation baffle and first die body hinge on the spliced pole, and die body branch closes controlling means drive sealed rotation baffle and first die body and rotate on the spliced pole, and the closing plate drives die body branch and closes controlling means and remove.

Further, the die body opening and closing control device comprises a moving ring, double-headed clubs, a first push-pull groove and a second push-pull groove, wherein two double-headed clubs are arranged on the moving ring, one double-headed club slides in the first push-pull groove, the other double-headed club slides in the second push-pull groove, the first push-pull groove is arranged on the first die body, and the second push-pull groove is arranged on the second die body.

Further, an opening and an inclined plane are arranged on the movable ring.

The invention has the advantages that: the invention uses the molding material feeding device to transport the molding material to the molding material distribution device through the molding material transmission device, the molding material distribution device pushes the molding material into one of the molding devices for molding, and when one molding device is filled with the molding material, the other molding device performs demolding and discharges the molded part;

the push rod drives the sliding plug plate to slide in the storage cylinder, when the sliding plug plate moves to the direction of the first feeding cavity, the first feeding cavity is not communicated with the forming material conveying device, then materials in the first feeding cavity are extruded to the forming device to be formed along with the continuous diminishing of the space of the first feeding cavity, meanwhile, the space of the second feeding cavity is continuously enlarged, the forming material conveying device is communicated with the second feeding cavity, the forming material conveying device continuously supplements materials required by forming to the second feeding cavity, after the sliding plug plate moves to the position that the first feeding cavity is minimum, the forming device connected with the second feeding cavity is demoulded, then the sliding plug plate moves to the direction of the second feeding cavity again, the sliding plug plate extrudes the second feeding cavity to the forming device communicated with the second feeding cavity, and the forming device communicated with the first feeding cavity is demoulded.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention in section;

FIG. 3 is a schematic view of a molding material dispensing apparatus according to the present invention;

FIG. 4 is a cross-sectional view of a molding material dispensing apparatus of the present invention;

FIG. 5 is a schematic view of a closure device according to the present invention;

FIG. 6 is a cross-sectional view of the closure device of the present invention;

FIG. 7 is a second cross-sectional view of the closure of the present invention;

FIG. 8 is a schematic view showing a partial structure of a molding material dispensing apparatus of the present invention;

FIG. 9 is a schematic view of a friction device according to the present invention;

FIG. 10 is a schematic view of a molding apparatus according to the present invention;

FIG. 11 is a cross-sectional view of a molding apparatus of the present invention;

the figure indicates:

a molding material conveying device 1; an input terminal 1-1; a first output terminal 1-2; a second output terminal 1-3; a molding material dispensing device 2; a storage cylinder 2-1; a sliding plug plate 2-2; pushing the rod 2-3; 2-4 of a sealing plate; friction device 2-5; friction groove 2-5-1; 2-5-2 of sliding blocks; 2-5-3 parts of mounting cavities; friction springs 2-5-4; 2-5-5 parts of friction blocks; 2-6 of a baffle plate; a first feeding cavity 2-7; a second feeding cavity 2-8; closing means 2-9; mounting seats 2-9-1; rotating the groove 2-9-2; rotating shaft 2-9-3; pushing the plate 2-9-4; 2-9-5 of arc springs; 2-9-6 parts of rotating plate; a molding device 3; a connecting column 3-1; a connection hole 3-2; sealing the rotary baffle 3-3; a first die body 3-4; 3-5 parts of a second die body; 3-6 of a die body opening and closing control device; a moving ring 3-6-1; 3-6-2 of double-ended clubs; a first push-pull groove 3-6-3; a second push-pull groove 3-6-4; 3-6-5 of an opening; and inclined planes 3-6-6.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 3 and 8, a lightweight automobile part forming device comprises a forming material conveying device 1, one end of the forming material conveying device 1 is arranged on a forming material distributing device 2, the other end of the forming material conveying device 1 is arranged on a forming material feeding device, two ends of the forming material distributing device 2 are respectively provided with a forming device 3, the forming material distributing device 2 supplements forming materials for the forming devices 3, the forming material distributing device 2 drives one forming device 3 to form and simultaneously drives the other forming device 3 to form a die.

The molding material required for molding is transported to the molding material distribution device 2 by the molding material feeding device through the molding material transporting device 1, the molding material distribution device 2 pushes the molding material into one of the molding devices 3 for molding, and when one molding device 3 is filled with the molding material, the other molding device 3 performs demolding and discharges the molded part.

The molding material distribution device 2 comprises a storage cylinder 2-1, a sliding plug plate 2-2, a pushing rod 2-3, a sealing plate 2-4, a friction device 2-5, a baffle plate 2-6, a first feeding cavity 2-7, a second feeding cavity 2-8 and a sealing device 2-9, wherein the sliding plug plate 2-2 slides in the storage cylinder 2-1, one side of the sliding plug plate 2-2 is provided with the first feeding cavity 2-7, the other side of the sliding plug plate 2-2 is provided with the second feeding cavity 2-8, the sliding plug plate 2-2 is provided with the pushing rod 2-3 for pushing the sliding plug plate 2-2 to slide, one end of the pushing rod 2-3 is arranged outside the storage cylinder 2-1, the sealing storage cylinder 2-1 is provided with a through groove for pushing the pushing rod 2-3 to slide, the pushing rod 2-3 is provided with a sealing plate 2-4 for sealing the through groove, the movement of the sealing plate 2-4 drives the forming device 3 to change in two states, the die assembly of the forming device 3 or the die release of the forming device 3 is carried out, the friction device 2-5 is arranged on the sliding plug plate 2-2, the baffle plate 2-6 slides on the storage cylinder 2-1, the baffle plate 2-6 is used for ensuring the tightness of the first feeding cavity 2-7 and the second feeding cavity 2-8, the friction device 2-5 drives the baffle plate 2-6 to slide, the second feeding cavity 2-8 and the sealing device 2-9 are communicated with the forming material conveying device 1, the two sealing devices 2-9 are arranged on the storage cylinder 2-1, the sealing device 2-9 is used for blocking the communication of the molding material conveying device 1 and the first feeding cavity 2-7, the sealing device 2-9 is used for blocking the communication of the molding material conveying device 1 and the second feeding cavity 2-8, both ends of the storage cylinder 2-1 are provided with the molding devices 3, one molding device 3 is communicated with the first feeding cavity 2-7, and the other molding device 3 is communicated with the second feeding cavity 2-8.

The pushing rod 2-3 drives the sliding plug plate 2-2 to slide in the storage cylinder 2-1, when the sliding plug plate 2-2 moves towards the first feeding cavity 2-7, the first feeding cavity 2-7 is not communicated with the forming device 1, then as the space of the first feeding cavity 2-7 is continuously reduced, the material in the first feeding cavity 2-7 is extruded to the forming device 3 for forming, meanwhile, the space of the second feeding cavity 2-8 is continuously increased, the forming material conveying device 1 is communicated with the second feeding cavity 2-8, the forming material conveying device 1 continuously supplements materials required for forming to the second feeding cavity 2-8, when the sliding plug plate 2-2 moves to the first feeding cavity 2-7 to be minimum, the forming device 3 connected with the second feeding cavity 2-8 is demolded, then the sliding plug plate 2-2 moves towards the second feeding cavity 2-8, the sliding plug plate 2-2 is extruded into the forming device 3 connected with the second feeding cavity 2-8, and the demolding device 2-8 is communicated with the first forming device 3.

Wherein, as shown in fig. 4, the molding material conveying device 1 comprises an input end 1-1, a first output end 1-2 and a second output end 1-3, wherein the first output end 1-2 is communicated with a first feeding cavity 2-7, the second output end 1-3 is communicated with a second feeding cavity 2-8, and a sealing device 2-9 is used for blocking the first output end 1-2 and the second output end 1-3.

The molding material feeding device pushes the molding material through the input end 1-1 and then discharges the molding material from the first output end 1-2 or the second output end 1-3.

As shown in fig. 3 and 9, the friction device 2-5 comprises a friction groove 2-5-1, a sliding block 2-5-2, a mounting cavity 2-5-3, a friction spring 2-5-4 and a friction block 2-5-5, wherein the friction groove 2-5-1 is arranged on a baffle plate 2-6, the sliding block 2-5-2 is arranged on a sliding plug plate 2-2, the sliding block 2-5-2 slides in the friction groove 2-5-1, the mounting cavity 2-5-3 is arranged in the sliding block 2-5-2, two friction blocks 2-5-5 are arranged in the mounting cavity 2-5-3, a friction spring 2-5-4 is arranged between the friction blocks 2-5-5, and the friction spring 2-5-4 pushes the friction block 2-5-5 to be in friction fit with the friction groove 2-5-1.

The sliding plug plate 2-2 moves to drive the sliding block 2-5-2 to move, the sliding block 2-5-2 drives the friction spring 2-5-4 and the friction block 2-5-5 to move, the friction spring 2-5-4 pushes the friction block 2-5-5 and the friction groove 2-5-1 to generate friction to drive the baffle plate 2-6 to move, and when the baffle plate 2-6 moves to a state that the baffle plate 2-6 cannot move, the sliding block 2-5-2 and the baffle plate 2-6 relatively move.

As shown in fig. 5-7, the sealing device 2-9 includes a mounting seat 2-9-1, a rotating groove 2-9-2, a rotating shaft 2-9-3, a pushing plate 2-9-4, an arc spring 2-9-5 and a rotating plate 2-9-6, wherein two rotating grooves 2-9-2 are arranged in the mounting seat 2-9-1, the rotating shaft 2-9-3 is arranged in the mounting seat 2-9-1, two ends of the rotating shaft 2-9-3 are arranged in the rotating groove 2-9-2, two pushing plates 2-9-4 are arranged at two ends of the rotating shaft 2-9-3, the pushing plate 2-9-4 rotates in the rotating groove 2-9-2, the arc spring 2-9-5 is arranged between the pushing plate 2-9-4 and the rotating groove 2-9-2, the rotating plate 2-9-6 is arranged on the rotating shaft 2-9-3, and the rotating plate 2-9-6 is used for isolating the first output end 1-2 and the second output end 1-3.

The arc-shaped springs 2-9-5 extrude the pushing plates 2-9-4, the pushing plates 2-9-4 drive the rotating plates 2-9-6 to be clung to the first output end 1-2 or the second output end 1-3 through the rotating shafts 2-9-3, then when the molding material feeding device feeds materials, the rotating plates 2-9-6 can rotate to expose the first output end 1-2 or the second output end 1-3, and if the baffle plates 2-6 are arranged below the rotating plates 2-9-6, the sealing of the first output end 1-2 or the second output end 1-3 cannot be guaranteed.

As shown in fig. 10-11, the forming device 3 includes a connecting column 3-1, a connecting hole 3-2, a sealing rotating baffle 3-3, a first die body 3-4, a second die body 3-5 and a die body opening and closing control device 3-6, the connecting column 3-1 is arranged on the storage cylinder 2-1, the connecting hole 3-2 is arranged on the connecting column 3-1, the connecting column 3-1 is provided with the sealing rotating baffle 3-3 for controlling the opening and closing of the connecting hole 3-2, the sealing rotating baffle 3-3 and the first die body 3-4 are hinged on the connecting column 3-1, the die body opening and closing control device 3-6 drives the sealing rotating baffle 3-3 and the first die body 3-4 to rotate on the connecting column 3-1, and the sealing plate 2-4 drives the die body opening and closing control device 3-6 to move.

The materials discharged from the first feeding cavity 2-7 or the second feeding cavity 2-8 enter the sealing rotary baffle plate 3-3 and the first die body 3-4 through the connecting hole 3-2, meanwhile, the sealing rotary baffle plate 3-3 rotates outwards to drive the connecting hole 3-2, the sealing plate 2-4 is driven to move in the process of discharging the materials from the first feeding cavity 2-7 or the second feeding cavity 2-8, when the sealing plate 2-4 drives the die body opening and closing control device 3-6 to move away from the connecting column 3-1, the die body opening and closing control device 3-6 extrudes the first die body 3-4 and the second die body 3-5 to form a closed space, then the materials enter the space enclosed by the first die body 3-4 and the second die body 3-5 to be molded, and when the sealing plate 2-4 drives the die body opening and closing control device 3-6 to move onto the connecting column 3-1, the die body opening and closing control device 3-6 pulls the first die body 3-4 and the second die body 3-5 to rotate outwards to be demolded.

As shown in fig. 10-11, the mold body opening and closing control device 3-6 includes a moving ring 3-6-1, a double-headed ball bar 3-6-2, a first push-pull groove 3-6-3 and a second push-pull groove 3-6-4, wherein two double-headed ball bars 3-6-2 are arranged on the moving ring 3-6-1, one double-headed ball bar 3-6-2 slides in the first push-pull groove 3-6-3, the other double-headed ball bar 3-6-2 slides in the second push-pull groove 3-6-4, the first push-pull groove 3-6-3 is arranged on the first mold body 3-4, and the second push-pull groove 3-6-4 is arranged on the second mold body 3-5.

The moving ring 3-6-1 moves on the connecting post 3-1, the moving ring 3-6-1 pushes the double-headed ball bar 3-6-2 to slide on the first push-pull groove 3-6-3 and the second push-pull groove 3-4 when the moving ring 3-6-1 moves away from the connecting post 3-1, and the double-headed ball bar 3-6-2 moves to the tail ends of the first push-pull groove 3-6-3 and the second push-pull groove 3-6-4 and cannot move when the moving ring 3-6-1 moves on the connecting post 3-1 and moves above the connecting post 3-1, and the moving ring 3-6-1 pulls the first die body 3-4 and the second die body 3-5 to rotate outwards through the double-headed ball bar 3-6-1 for demolding.

Wherein, as shown in fig. 10-11, the moving ring 3-6-1 is provided with an opening 3-6-5 and a bevel 3-6-6.

The movable ring 3-6-1 is provided with an opening 3-6-5 and an inclined surface 3-6-6, so that the movable ring 3-6-1 can push the first die body 3-4 and the second die body 3-5 to be closed when being far away from the connecting column 3-1.

Working principle: the pushing rod 2-3 pushes the sliding plug plate 2-2 to move, when the sliding plug plate 2-2 moves towards the first feeding cavity 2-7, the first feeding cavity 2-7 is communicated with the first output end 1-2, meanwhile, the second feeding cavity 2-8 is communicated with the second output end 1-3, along with the continuous reduction of the space of the first feeding cavity 2-7 when the sliding plug plate 2-2 moves, the space of the second feeding cavity 2-8 is continuously increased, the material is supplemented to the second feeding cavity 2-8 by the forming material conveying device 1 in the process of increasing the space of the second feeding cavity 2-8, the forming device 3 is used for injection molding with the second feeding cavity 2-8, the material in the first feeding cavity 2-7 enters the connecting column 3-1, meanwhile, the pushing rod 2-3 drives the sealing plate 2-4 to move, the sealing plate 2-4 drives the moving ring 3-6-1 to move, the moving ring 3-6-1 is used for enclosing the first die body 3-4 and the second die body 3-5 which are communicated with the first feeding cavity 2-7 on the forming device 3 together into a closed space for receiving materials for forming, when the moving ring 3-6-1 moves to the tail end of the first die body 3-4 and the second die body 3-5, the moving ring 3-6-1 which is communicated with the second feeding cavity 2-8 on the die body separating and combining control device 3-6 moves to the connecting column 3-1, the moving ring 3-6-1 is used for opening the first die body 3-4 and the second die body 3-5 which are connected with the moving ring 2-8 for demoulding, then when the baffle plate 2-6 moves towards the second feeding cavity 2-8, the forming device 3 communicated with the second feeding cavity 2-8 performs die assembly and injection molding, and when the moving ring 3-6-1 moves to the tail ends of the first die body 3-4 and the second die body 3-5, the forming device 3 communicated with the first feeding cavity 2-7 performs demoulding after forming.

It will be understood that the invention has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (4)

1. The light-weight automobile part forming device comprises a forming material conveying device (1), and is characterized in that one end of the forming material conveying device (1) is arranged on a forming material distributing device (2), the other end of the forming material conveying device (1) is arranged on a forming material feeding device, one forming device (3) is arranged at each of two ends of the forming material distributing device (2), the forming material distributing device (2) supplements forming materials for the forming devices (3), the forming material distributing device (2) drives one forming device (3) to form and simultaneously drives the other forming device (3) to form a die;

the molding material distribution device (2) comprises a storage cylinder (2-1), a sliding plug plate (2-2), a pushing rod (2-3), a sealing plate (2-4), a friction device (2-5), a baffle plate (2-6), a first feeding cavity (2-7), a second feeding cavity (2-8) and a sealing device (2-9), wherein the sliding plug plate (2-2) slides in the storage cylinder (2-1), one side of the sliding plug plate (2-2) is the first feeding cavity (2-7), the other side of the sliding plug plate (2-2) is the second feeding cavity (2-8), the sliding plug plate (2-2) is provided with the pushing rod (2-3) for pushing the sliding plug plate (2-2), one end of the pushing rod (2-3) is arranged on the outer side of the storage cylinder (2-1), the sealing storage cylinder (2-1) is provided with a through groove for pushing the sliding of the pushing rod (2-3), the pushing rod (2-3) is provided with a sealing plate (2-4) for sealing the through groove, the sealing plate (2-4) is moved, or the molding device (3) is in a mold-closing state is changed, the friction device (2-5) is arranged on the sliding plug plate (2-2), the baffle plate (2-6) slides on the storage cylinder (2-1), the baffle plate (2-6) is used for guaranteeing the tightness of the first feeding cavity (2-7) and the second feeding cavity (2-8), the friction device (2-5) drives the baffle plate (2-6) to slide, the second feeding cavity (2-8) and the sealing device (2-9) are communicated with the molding material conveying device (1), the two sealing devices (2-9) are arranged on the storage cylinder (2-1), the sealing device (2-9) is used for blocking the molding material conveying device (1) from being communicated with the first feeding cavity (2-7), the sealing device (2-9) is used for blocking the molding material conveying device (1) from being communicated with the second feeding cavity (2-8), two ends of the storage cylinder (2-1) are respectively provided with the molding device (3), and one molding device (3) is communicated with the first feeding cavity (2-7), and the other molding device (3) is communicated with the second feeding cavity (2-8).

The forming device (3) comprises a connecting column (3-1), a connecting hole (3-2), a sealing rotating baffle plate (3-3), a first die body (3-4), a second die body (3-5) and a die body opening and closing control device (3-6), wherein the connecting column (3-1) is arranged on a storage cylinder (2-1), the connecting hole (3-2) is arranged on the connecting column (3-1), the sealing rotating baffle plate (3-3) for controlling the opening and closing of the connecting hole (3-2) is arranged on the connecting column (3-1), the sealing rotating baffle plate (3-3) and the first die body (3-4) are hinged on the connecting column (3-1), the die body opening and closing control device (3-6) drives the sealing rotating baffle plate (3-3) and the first die body (3-4) to rotate on the connecting column (3-1), and the sealing plate (2-4) drives the die body opening and closing control device (3-6) to move;

the die body opening and closing control device (3-6) comprises a moving ring (3-6-1), double-headed clubs (3-6-2), a first push-pull groove (3-6-3) and a second push-pull groove (3-6-4), wherein two double-headed clubs (3-6-2) are arranged on the moving ring (3-6-1), one double-headed club (3-6-2) slides in the first push-pull groove (3-6-3), the other double-headed club (3-6-2) slides in the second push-pull groove (3-6-4), the first push-pull groove (3-6-3) is arranged on the first die body (3-4), and the second push-pull groove (3-6-4) is arranged on the second die body (3-5);

the movable ring (3-6-1) is provided with an opening (3-6-5) and an inclined plane (3-6-6).

2. The lightweight automotive part molding device according to claim 1, characterized in that: the molding material conveying device (1) comprises an input end (1-1), a first output end (1-2) and a second output end (1-3), wherein the first output end (1-2) is communicated with a first feeding cavity (2-7), the second output end (1-3) is communicated with a second feeding cavity (2-8), and a sealing device (2-9) is used for blocking the first output end (1-2) and the second output end (1-3).

3. The lightweight automotive part molding device according to claim 1, characterized in that: the friction device (2-5) comprises a friction groove (2-5-1), a sliding block (2-5-2), a mounting cavity (2-5-3), friction springs (2-5-4) and friction blocks (2-5-5), wherein the friction groove (2-5-1) is arranged on a baffle (2-6), the sliding block (2-5-2) is arranged on a sliding plug plate (2-2), the sliding block (2-5-2) slides in the friction groove (2-5-1), the mounting cavity (2-5-3) is arranged in the sliding block (2-5-2), two friction blocks (2-5-5) are arranged in the mounting cavity (2-5-3), the friction springs (2-5-4) are arranged between the friction blocks (2-5-5), and the friction springs (2-5-4) push the friction blocks (2-5-5) to be in friction fit with the friction groove (2-5-1).

4. The lightweight automotive part molding device according to claim 1, characterized in that: the sealing device (2-9) comprises a mounting seat (2-9-1), a rotating groove (2-9-2), a rotating shaft (2-9-3), a pushing plate (2-9-4), arc springs (2-9-5) and a rotating plate (2-9-6), wherein the two rotating grooves (2-9-2) are formed in the mounting seat (2-9-1), the rotating shaft (2-9-3) is arranged in the mounting seat (2-9-1), two ends of the rotating shaft (2-9-3) are arranged in the rotating groove (2-9-2), the two pushing plates (2-9-4) are arranged at two ends of the rotating shaft (2-9-3), the pushing plate (2-9-4) rotates in the rotating groove (2-9-2), the arc springs (2-9-5) are arranged between the pushing plate (2-9-4) and the rotating groove (2-9-2), the rotating plate (2-9-6) is arranged on the rotating shaft (2-9-3), and the rotating plate (2-9-6) is used for isolating a first output end (1-3).

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